Identification of five species of the Anopheles dirus complex from Thailand, using allele-specific polymerase chain reaction

The Anopheles dirus complex of mosquitoes contains some of the most important vectors of malaria in Southeast Asia. To distinguish five species of the complex that occur in Thailand, a method using the polymerase chain reaction (PCR) was developed. The method utilizes allele-specific amplification to detect fixed differences between the species in the DNA sequence of the ribosomal DNA internal transcribed spacer 2. Primers were designed to amplify fragments of diagnostic length from the DNA of the different species. The method was tested on 179 mosquitoes of the An. dirus complex from many parts of Thailand and shown to be effective. Every specimen was unambiguously identified as species A, B, C, D or F (i.e. An. dirus s.s. species B, C, D or An. nemophilous, respectively) by the PCR method, with confirmation of 58/61 identifications from polytene chromosome characteristics. For the other three specimens (3/44 from Kanchanaburi 5 locality), there was disagreement between the PCR and chromosomal methods of species identification (probably due to errors in the chromosomal identifications). Primers can be combined in a single PCR reaction providing a rapid, sensitive and straightforward method of species identification. Only small quantities of DNA are required, leaving most of the mosquito to be used for other analyses.     

PCR-based methods for identification of species of the Anopheles minimus group: allele-specific amplification and single-strand conformation polymorphism

We report two polymerase chain reaction (PCR)-based methods for distinguishing morphologically similar species based on amplification of a variable region of the 28S gene of ribosomal DNA. The four species we investigated are mosquitoes of the Anopheles minimus group: An. aconitus, An. varuna and An. minimus species A and C. The formally named species are vectors of human malaria parasites in south-east Asia but are difficult to distinguish with certainty on the basis of morphology. Allele-specific amplification was used to differentiate An. minimus A from An. minimus C. This technique has been widely used for the diagnosis of species. Single-strand conformation polymorphisms (SSCPs) were used to separate all four species. This technique, which has seldom been used for species identification, has many advantages: it does not require sequence information beyond that needed for amplification; it is ideally suited for the detection of heterozygotes; it utilizes more of the information in the PCR product than allele-specific amplification; it distinguishes all four species considered here and could easily be extended to other species; previously unknown intraspecific variation and additional species are likely to be detected. Thus, SSCPs provide valuable population genetic information which allele-specific amplification does not.     

Geographical distribution of Anopheles minimus species A and C in western Thailand.

Elucidating vector distribution based on an accurate species identification is important to understanding the nature of the species complex in order to achieve vector control. Morphologically, An. minimus s.l. is difficult to distinguish from both its species complex and its closely related species. A polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) technique and a single multiplex-allele specific PCR developed for species identification were applied in this study in comparison with morphological identification. Both methods were used, combining with geographical information systems to determine the distribution of An. minimus species A and C. The investigation on the breeding habitats was performed in the malarious area of western Thailand. Anopheles larvae were collected from 36 bodies of water among five districts (Sangkhaburi, Thong Pha Phum, Si Sawat, Muang, and Sai Yok) of Kanchanaburi Province, Thailand. In this study, An. minimus A larvae were present in all study districts but the association differed when focusing on study sites within each district. Although there were many reports of An. minimus A in Ban Phu Rat and Ban Phu Toei villages in Sai Yok District, we did not find the breeding sites of species A in those two areas. An. minimus A and C were found in Ban Phu Ong Ka village in Sai Yok District. The breeding habitats of An. minimus C were present covering 30-40 km of distance in northern part of Sai Yok and this species was also found in the central and southern parts of Si Sawat District.     

应用RAPD技术分析奥利亚罗非鱼和尼罗罗非鱼的基因多态性(英文)

以随机扩增多态ＤＮＡ技术（ＲＡＰＤ）分析了奥利亚罗非鱼和尼罗罗非鱼两个养殖群体的群体内及群体间遗传关系,并探讨了该技术在种群鉴定中的应用。ＲＡＰＤ引物筛选结果表明,所测试的２０个随机引物中（Ｔａｂｌｅ　１）,除一个引物未扩增出任何片段外,其余１９个引物均扩增出１～１１个大小不等的片段,长度大部分在５００～３０００ｂｐ之间,共扩增出２２０个片段,平均每个引物产生５．５个片段。两群体间共有片段７０条,大部分引物的扩增产物具有种间多态性,种群间相似系数为０．７２７。以筛选的引物对两种群不同个体（Ｆｉｇ．１,Ｔａｂｌｅ２）及种群混合样品（Ｆｉｇ．２,Ｔａｂｌｅ３）进行ＲＡＰＤ分析。结果表明,不同引物在扩增图谱上表现很大差异。奥利亚罗非鱼不同个体间表现为一致的扩增图谱,种内相似系数达１０００,显示了其种群内遗传变异的缺乏;尼罗罗非鱼种内相似系数为０．８２７,个体间存在不同程度的多态性;两个种群间的相似系数分别为０．７６７和０．７４２,表明种间有较高的同源性,遗传距离为０．２３５,略低于国外的报道、此外,两个养殖群体间的扩增图谱比较也暗示了遗传渐渗现象的存在。实验表明,ＲＡＰＤ标记可以作为一种可靠的遗传标记,用于不同鱼     

Cloning and sequence analysis of 14 DRB alleles of the bovine major histocompatibility complex by using the polymerase chain reaction

The genetic diversity in the first domain exon of a bovine class II DRB gene was investigated by PCR amplification and DNA sequencing. Genomic DNA samples representing 14 different class II haplotypes, defined by RFLP analysis, were used. The analysis revealed an extensive polymorphism and 14 alleles at a single locus, designated DRB3, were identified. Multiple amino acid substitutions were found in all pairwise comparisons of alleles; 5 to 21 substitutions in the 83 positions compared. The genetic diversity at the amino acid level found in cattle matches the one previously found in the DRB1 locus in man. The significantly higher frequency of replacement substitutions compared with the frequency of silent substitutions provides strong evidence that there is selection for genetic diversity in the bovine DRB3 first domain exon. A comparison of the DRB polymorphism in man and cattle reveals a striking similarity as regards the location of polymorphic positions in the DRB molecule and the degree of polymorphism at polymorphic positions. The majority of polymorphic positions in both species are found in the proposed antigen recognition site of the class II molecule. In addition, there are eight positions which are polymorphic in both species but have not been assigned to the antigen recognition site. The possible functional significance of the polymorphism of these latter positions is discussed.     

A wide-range survey of cross-species microsatellite amplification in birds

The possibility to perform cross-species microsatellite amplification in birds was surveyed by analysing sets of primers developed from the swallow and the pied flycatcher genomes on a panel of 48 different bird species. In total, 162 cases (species/marker combinations) of heterologous amplification were recorded. Ten amplification products were sequenced and all were found to be true homologues of the original loci. There was a significant and negative relationship between microsatellite performance and evolutionary distance between the original species and the tested species. As a rough indicator of expected cross-species microsatellite performance we estimate that 50% of markers will reveal polymorphism in a species with a DNA-DNA hybridization δT_mH value of 5 separating it from the original species. This corresponds to a divergence time of = 11 million years before present for passerine birds. The established relationship between performance and evolutionary distance agrees very well with data obtained from some mammalian species. The proportion of polymorphic loci among those markers that amplified decreased with increasing genetic distance, suggesting that few long repeats are preserved during evolution. One of the swallow markers, HrU2, amplified a specific product in all species analysed and will thus allow access to nuclear sequence data over a broad range of species. The only predictor of cross-species performance was the amount of non-specific amplification seen in the original species. An analysis of 10 species from within the family Hirundinidae with the swallow primers consistently revealed extensive polymorphism with average probabilities of identical genotypes ranging from 6 times 10^-4 to 6 times 10^-7. There were distinct allele frequency differences between the Hirundinidae species and we envisage that microsatellite cross-species amplification will be a useful tool in phylogeny construction and in species identification.     

A suite of molecular markers for identifying species, detecting introgression and describing population structure in spadefoot toads (Spea spp.)

Two congeneric species of spadefoot toad, Spea multiplicata and Spea bombifrons, have been the focus of hybridization studies since the 1970s. Because complex hybrids are not readily distinguished phenotypically, genetic markers are needed to identify introgressed individuals. We therefore developed a set of molecular markers (amplified fragment length polymorphism, polymerase chain reaction-restriction fragment length polymorphism and single nucleotide polymorphism) for identifying pure-species, F1 hybrids and more complex introgressed types. To do so, we tested a series of markers across both species and known hybrids using populations in both allopatry and sympatry. We retained those markers that differentiated the two pure-species and also consistently identified known species hybrids. These markers are well suited for identifying hybrids between these species. Moreover, those markers that show variation within each species can be used in conjunction with existing molecular markers in studies of population structure and gene flow.     

Nonconcordant evolutionary history of maternal and paternal lineages in Adriatic sturgeon

Although analyses of intraspecific variability are an important prerequisite for species identification assays, only a few studies have focused on population genetics and historical biogeography of sturgeon species. Here we present the first study on genetic variability of the last remaining Adriatic sturgeon, Acipenser naccarii, derived from mitochondrial and nuclear DNA. Our mitochondrial DNA analyses arranged individuals into three distinguished mitochondrial DNA haplogroups (Po1, Po2 and Buna). Two haplogroups (Po1 and Buna) were correlated to geographical distribution, whereas the third (Po2) was not. It was, however, very closely related to one lineage of its Ponto-Caspian sister species, A. gueldenstaedtii. The distribution of nuclear markers (microsatellites and amplified fragment length polymorphism) was strongly correlated to geographical distribution. An assignment test based on nuclear data placed no specimen of A. naccarii to A. gueldenstaedtii and vice versa. Therefore, the presence of gueldenstaedtii-like haplotypes within the Po population is either the result of a postglacial introgression or an ancestral polymorphism and does not indicate a hybrid population. The most valuable tool for forensic species identification purposes is one diagnostic deletion separating all A. naccarii from A. gueldenstaedtii. As both A. naccarii populations are genetically differentiated, stocking of sturgeon from the Po River in Italy into waters of the Buna River would jeopardize the genetic differences between both populations and should thus be avoided.     

Interpretation of randomly amplified polymorphic DNA marker data for fingerprinting sweet potato (Ipomoea batatas L.) genotypes

In this paper we present a method for the generation of randomly amplified polymorphic DNA (RAPD) markers for sweet potato. These were applied to produce genetic fingerprints of six clonal cultivars and to estimate genetic distances between these cultivars. The level of polymorphism within the species was extremely high. From the 36-decamer random primers used, 170 fragments were amplified, of which 132 (77.6%) were polymorphic. Ten primers resulted in no detected amplification. Of the remaining 26 primers for which amplification was achieved, only one did not reveal polymorphism. Six primers used alone enabled the discrimination of all six genotypes. Pattern analysis, which employed both a classification and ordination method, enabled the grouping of cultivars and the identification of primers which gave greatest discrimination among the cultivars.     

Detection of highly polymorphic microsatellite loci in a species with little allozyme polymorphism

Microsatellite loci are regions of DNA containing tandem repeats of a short sequence motif; they occur abundantly in all eukaryotic genomes and have been shown to be a rich source of highly polymorphic genetic markers in humans and other mammals. These loci are particularly suitable for population studies because they can be relatively easily scored using a combination of polymerase chain reaction (PCR) amplification of each locus followed by electrophoresis to separate alleles. This paper details a method for finding these loci in any species. This method demonstrates that trinucleotide microsatellite loci are abundant and highly polymorphic in the social wasp Polistes annularis , whereas allozyme electrophoresis reveals very little polymorphism. The first six loci examined were all polymorphic with a mean observed heterozygosity of 0.62; in comparison average heterozygosity of 33 allozymes was 0.035. We suggest that this method can be used to detect variation where other methods have failed, making it an ideal tool for population and conservation geneticists who must deal with populations lacking other types of genetic variability.     

Estimation of genetic diversity and evaluation of relatedness through molecular markers among medicinally important trees: <Emphasis Type="Italic">Terminalia arjuna</Emphasis>, <Emphasis Type="Italic">T. chebula</Emphasis> and <Emphasis Type="Italic">T. bellerica</Emphasis>

Terminalia trees are being over-exploited because of their medicinal and economical importance leading to loss of valuable genetic resources. For sustainable utilization and conservation, assessment of genetic diversity therefore becomes imperative. We report a comprehensive first study on estimation and analysis of genetic variation through Amplified fragment length polymorphism (AFLP), inter simple sequence repeat polymorphism (ISSR) and random amplification of polymorphic DNA (RAPD) across three species of Terminalia. The study included (i) characterization of genetic diversity at interspecific level, and (ii) comparison of efficiency of the marker systems. That the three species are genetically distinct was revealed by all the three marker systems as unique DNA fingerprints were obtained. This led to identification of several species-specific amplification products. Further analysis helped in species-wise clustering. The species specific bands obtained from the present investigation can be used as diagnostic markers to identify the raw materials for herbal drug preparations for authentication purposes.     

Genetic structure and diversity of the Diachasmimorpha longicaudata species complex in Thailand: SSCP analysis of mitochondrial 16S rDNA and COI DNA sequences

Genetic variation among 20 populations of Diachasmimorpha longicaudata (Ashmead) (Hymenoptera: Braconidae) in Thailand was investigated using single strand conformation polymorphism (SSCP) analysis of mitochondrial DNA sequences. From a total 641 individual parasitoids, seven distinct haplotypes containing a total of 32 polymorphic sites were observed from cytochrome oxidase subunit I (COI) sequences along with five distinct haplotypes containing a total 16 polymorphic sites from 16S rDNA sequences. Values obtained through pairwise F_ST comparisons and analysis of molecular variance (AMOVA) indicated significant genetic differentiation among D. longicaudata populations in Thailand. Congruent relationships showing separation of these populations into three groups were obtained from Neighbor joining and Bayesian phylogenetic tree analyses along with the use of haplotype networks. This SSCP analysis of populations of the D. longicaudata species complex is the first report using molecular population genetic methods to analyze the structure of this parasitoid species in Thailand. This may provide useful information for release of parasitoid strains to maximize their benefit in biological control programs.     

Genetic fingerprinting of pigeonpea [Cajanus cajan (L.) Millsp.] and its wild relatives using RAPD markers

Randomly amplified polymorphic DNA (RAPD) markers were used for the identification of pigeonpea [Cajanus cajan (L.) Millsp.] cultivars and their related wild species. The use of single primers of arbitrary nucleotide sequence resulted in the selective amplification of DNA fragments that were unique to individual accessions. The level of polymorphism among the wild species was extremely high, while little polymorphism was detected within Cajanus cajan accessions. All of the cultivars and wild species under study could be easily distinguished with the help of different primers, thereby indicating the immense potential of RAPD in the genetic fingerprinting of pigeonpea. On the basis of our data the genetic relationship between pigeonpea cultivars and its wild species could be established.NCL Communication No. 6062     

New anonymous nuclear DNA markers for the pearl oyster Pinctada margaritifera and other Pinctada species

The black‐lipped oyster Pinctada margaritifera is highly exploited in French Polynesia where the pearl industry relies mostly on spat collection, and therefore on resources available in the wild. Little is known of these resources, and population genetic studies would be useful to improve management. We used two methods, direct amplification of length polymorphism (DALP) and exon primed intron crossing (EPIC) to develop five new nuclear markers presenting length polymorphism. Although these markers remained anonymous after using blast on GenBank, they are codominant and follow Hardy–Weinberg equilibrium. Tests on related species or subspecies of Pinctada gave encouraging results.     

辐照地被竹突变体DNA多态性分析

利用ISSR分子标记技术对γ-射线(铯137)辐照地被竹突变体植株的基因组DNA变异进行检测和分析,结果表明从100条ISSR引物中筛选得到多态性高、重复性好的引物21条,ISSR的多态性主要表现为扩增片段的增减和扩增片段长度的差异,不同的突变株系中,多态性比率为19.46％ ～ 72.39％,反映了各突变体中遗传物质...     

Identification of Carnobacterium, Lactobacillus, Leuconostoc and Pediococcus by rDNA-based techniques

Ribosomal DNA-based techniques including the analysis of profiles generated by ISR amplification, ISR restriction and ARDRA have been evaluated as molecular tools for identifying Carnobacterium, Lactobacillus, Leuconostoc and Pediococcus. They have been applied for the molecular characterization of 91 strains with the following identities: eight Carnobacterium including the eight type species of the genus; 61 Lactobacillus including 40 type strains out of 45 species, 13 Leuconostoc, out of them 11 are type strains and three are subspecies of Lc. mesenteroides; and nine strains representing the six species of genus Pediococcus. The genetic relationship displayed between these species by rrn-based profiles is sustained by their phylogenetic relationships and can therefore be considered useful for taxonomic purposes. Profiles obtained by ISR amplification allowed identification at genus level of Carnobacterium and Leuconostoc, and even at species level in genus Carnobacterium. Genera Lactobacillus and Pediococcus could not be distinguished from each other by applying this technique. The Lactobacillus species analysed here (45) were differentiated using ARDRA-DdeI and ISR-DdeI profiles, sequentially, and Pediococcus species by ISR-DdeI profiles. It was necessary to combine profiles generated by restriction of ISR-DdeI, ARDRA-DdeI and ARDRA-HaeIII in order to complete the identification of Leuconostoc species.     

Coevolutionary relationship between helminth diversity and MHC class II polymorphism in rodents

Parasite-mediated selection on major histocompatibility complex (MHC) genes has mainly been explored at the intraspecific level, although many molecular studies have revealed trans-species polymorphism. Interspecific patterns of MHC diversity might reveal factors responsible for the long-term evolution of MHC polymorphism. We hypothesize that host taxa harbouring high parasite diversity should exhibit high levels of MHC genetic diversity. We test this assumption using data on rodent species and their helminth parasites compiled from the literature. Controlling for similarity due to common descent, we present evidence indicating that high helminth species richness in rodent species is associated with increased MHC class II polymorphism. Our results are consistent with the idea that parasites sharing a long-term coevolutionary history with their hosts are the agents of selection explaining MHC polymorphism.     

Genetic diversity and methylation polymorphism analysis of Chrysanthemum nankingense

The diploid species Chrysanthemum nankingense (Anthemideae, Asteraceae) is closely related to the commercially important hexaploid ornamental species Chrysanthemum morifolium and is well adapted to poor environments. In this study, phenotypic variants of C. nankingense were first identified by morphological traits. Using EST-SSR (simple sequence repeat) analysis, we detected some absent EST-SSRs. The percentage of AFLP (amplified fragment length polymorphism) polymorphic fragments was 78.2%, indicating high genetic diversity. To evaluate the genome methylation level and methylation polymorphism, we used the MSAP (methylation-sensitive amplification polymorphism) technique to analyze the 30 C. nankingense lines. The total DNA methylation level ranged from 54.6% to 62.6%. Most of the MSAP-methylated fragments (97%) were polymorphic in the lines. The U-values associated with hemi-methylation were larger than those associated with full methylation in four of the 30 lines, and six individual values were statistically significant (U > 1.96). The high genomic diversity as well as the high methylation polymorphism may be responsible for the morphological polymorphism. There was no significant correlation between the phenotypic and genetic diversity among the lines.     

Characterization of microsatellite markers in sycamore (Acer pseudoplatanus L.)

Sycamore (Acer pseudoplatanus L.) is a tetraploid European hardwood tree species. The reproduction system of the insect‐pollinated trees and patterns of genetic variation are largely unknown. We isolated and characterized eight polymorphic microsatellite markers for Acer pseudoplatanus L. The high degree of polymorphism observed at these markers makes them useful to observe genetic variation patterns at various spatial scales and to analyse gene flow and the mating system. Primers developed for the amplification of microsatellites in A. pseudoplatanus were tested for 21 different species of genus Acer. Amplification products of the expected size were obtained in most cases.     

非损伤采样提取DNA技术在猫科动物调查中的应用

<正>猫科动物广泛分布于世界各地(Johnson et al.,2006),全球现存37种猫科动物,其中25种已被国际自然保护联盟(IUCN)列为濒危和易危,86%以上的种群数量处于下降或未知状态(IUCN Red List,2011)。我国有13种猫科动物,占世界种类的35%(王应祥,2003),其中属于国家一级保护的有4种,二级保护的有8种,然而,对这些珍稀物种的生态学研究并不充分(高耀亭,